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Buffalo Technology's 2GB PC2-8000 FireStix
FSX1000D2C-K2G memory has a default clock speed of 1000 MHz (DDR2-1000),
which when running in a dual channel configuration can provide up to 8GB/s
worth of bandwidth. The interesting back story on these Firestix modules
is that the Buffalo engineers veered away from the standard JEDEC design,
and instead relied on the talents of Kazuyoshi Tsukada to develop the PCB
trace layout. Kazuyoshi-san has been recognized by JEDEC for PCB design,
and now heads the Melco Inc. PCB design team. When running at 1000 MHz,
the Buffalo Technology FireStix FSX1000D2C-K2G modules have CAS Latency
timings of 5-5-5.Continue Here>>

Officially, the nVIDIA nForce4 SLI chipset enables
two PCI Express videocards to operate together under a technology called
SLI - or Scalable Link Interface. The GA-8N-SLI Quad Royal is the
first motherboard ever to feature four physical PCI Express x16 slots!
Quad PCI Express videocards are
obviously the main focus of this motherboard, but it still comes with a
rocking good list of on board features. Embedded into the GA-8N-SLI Quad
Royal motherboard are four Serial ATA II channels, dual Gigabit network
cards, IEEE 1394a firewire, a 7.1 channel audio controller (optical SP/DIF
and Coaxial), and my personal favorite - a Port 80 diagnostics card.Continue Here>>

Seasonic's flagship power supply is its S12 600
and computer enthusiasts have put this bad boy in the same category as PC
Power & Cooling! The Seasonic S12 600 is SLI certified, that itself is
already like a badge of honor and it is fully ATX 2.0 compatible. Many of
the enthusiast class power supplies that are 500W+ are physically larger
than the Seasonic S12 600 which can cause space restriction problems.
According to the Seasonic label the +3.3V line can deliver a maximum of 30
amps while the +5V rail can deliver 30 amps as well. Total output for the
+3.3V and +5V rails are 180W. There are two +12V rails in the Seasonic S12
600 and each can deliver a maximum of 18 amps with total power output of
432W.Continue Here>>

Devices like the Asus EAX1600XT Silent/TVD/256M/A videocard won't eat
up the 8GB/s worth of bandwidth the PCI Express x16 bus has to offer, but
this passively cooled graphics card strikes a good balance between price
and 3D rendering power. The Asus EAX1600XT Silent/TVD/256M/A is supported
with 256MB of GDDR3 Infineon memory, which is only located on the front of
the videocard. Asus equips the EAX1600XT Silent with a DVI/Analog
combination output and should users want to use dual analog monitors, a
DVI converter connector is bundled in. Continue Here>>

One of the main reasons for integrating
the memory controller directly into the processor is because latency
decreases between the two devices - cpu and memory controller. AMD is on
the cusp of dropping DDR
and adopting DDR-2 RAM, and this is
why the socket AM2 Athlon64 processor is being introduced. This pair of
dual channel DDR-2 RAM is capable of running with timings as tight as
3-3-3 under DDR2-667 speeds, and with timings as tight
as 4-4-4 under DDR2-1000 speeds... Yes you've
read that right, the PDC22G8000+XBLK
memory isn't
married to those all too familiar 5-5-5 CAS Latency settings.Continue Here>>

With Microsoft's Windows Vista due out at the end of this year, or perhaps early 2007, there is a feature called Aero Glass that is set
to break plenty of legacy videocards. If you want to take advantage
of Microsoft Vista's fancy Aeroglass visual interface the computer must have videocard hardware capable of at
least DirectX 9 with a minimum of 64MB on board memory. And wouldn't you
know it, the new S3 Chrome S27 videocard fits the bill
perfectly. The card boasts a 90nm manufactured silicon
core, eight pixel rendering pipeline, 128MB GDDR3 memory, dual monitor
outputs, and one other device.... Continue Here>>

PCstats Weekly Tech Tips: Performance Focus and Visual Optimization

Within WindowsXP you tell the operating system to give priority to background or foreground applications. So for example, you can make XP allocate more CPU cycles to programs you are using at the moment, or split them equally between background applications like a weekly virus scan and your open programs. To change this setting, go to Control Panel> System> Advanced> Performance> Settings. Under the Advanced Tab click on 'Processor Scheduling' and choose 'Programs' if you want more processing resources allocated here, or 'Background Services' if you want to assign equal amounts of CPU cycles to all programs.

For most situations it is best to leave focus on Foreground applications, but if you routinely do backups from your computer to another location, setting the focus on Background applications should speed up that process a little.

While you're under the Performance Options window, click on the 'Visual Effects' tab and select 'Adjust for Best Performace'. This does away with all the WinXP eye candy, but it nicely speeds things up if your PC is strapped for memory. Be sure to stop by PCSTATS Forums and post your comments or questions to this tip.

For the longest time chipsets from Intel were the companies "ace up its sleeve." No other processor manufacturer could match Intel's performance or stability in the area of desktop motherboards and core logic. It was one of the primary reasons why AMD has had a very difficult time upsetting Chipzilla.

It probably wasn't the best move on AMD's part to state that it would never get into the chipset market, after all it does not have the expertise to devote to this area, and a processor without a good chipset isn't much. Relying upon companies such as VIA, ULI, and SIS to come up with really powerful core logic has been hit and miss... at least that was the case until graphics giant nVidia came into the game.

The emergence of nVIDIA as a chipset power house is exactly what AMD needed, and now the Athlon64 has a legitimate partner that has an excellent track record in both performance and stability. I think persistence of the nForce 4 chipsets will continue to thrust AMD based computers against Intel strongholds (such as the workstation PC) like rain in the middle of a monsoon. With great chipsets, and a very capable processor there's little Intel can do to stand up to a better chip.

The only question that I'm left dwelling on is the little stickler of nVIDIA also producing Intel chipsets; will the company devote more resources here at the expense of its K8 solutions? Considering how much market share Intel has, and in corporate terms it is monumental, it would be beneficial for nVIDIA to try and increase its stake in Intel based systems more than promote AMD. I think AMD offers a better desktop processor right now, and is just breaching the hill on the server processor front with its Opteron CPUs. Time will tell, and as VIA seems to be the lame duck in this race for the last year and a bit, there doesn't seem to be much on the horizon pre-positioned to upset nVidia's apparent dominance.

As anyone weighing the pros and cons of AMD vs. Intel computers will tell you, it's dangerous to depend on what-ifs. It's dangerous for AMD to depend so significantly upon a single significant third party chipset manufacturer for the majority of motherboards in demand, and it really needs to even things out with the other core logic vendors. AMD may not be interested in chipsets, but you've got to wonder why it keeps holding out when just about every company and its uncle is vying for space in the chipset biz - ATI, ULI, nVidia, SIS, VIA, Intel, etc.